Coaxial termination for noise diodes



19%;? M. w. P. STRANDBERG 2,581,819

COAXIAL TERMINATION FOR NOISE DIODES Filed Sept. 20, 1949 INVEN TOR.

FIG. 2

Patented Jan. 8, 1952 cosx is t sn m' Ar es FIOR noise DIODES Mancini n w. P. Eti-difidberg; Ganibi'idge, Mass; lipp'l icatibn septeniber 20, 19491'SrifiINb; 1'1'6337 is -s9) i -2 Claims.-

The invention relates to an apparatus fosterminating coaxial equipment such as noise gen crating diodes used in sensitivity measurements in radio and radar equipment. More particularly it is concerned with a new and improved means for terminating coaxial equipment in which it is necessary to activate a secondary low frequency electrical circuit located axially of the equipment without disturbing the symmetry of the high frequency circuit.

Originally sensitivity measurements on radio equipment were performed by" introducing a continuous wave carrier of known amplitude into the equipment under test, and comparing this known value with the inherent equipment noise. As an alternative to this procedure, a diode of conventional construction maybe used] to generate a calculable voltage, which may be used as a test signal in place of the above CW' carrier. In a recent refinement, the" diode has been constructed in coaxial form thus increasing thefrequency region over which easily calculable operation may be obtained. It can be seen that the coaxial noise diode, because of itssimple geometry, possesses distinct advantages over the conventional diode" structure that itlreplaces.

However, utilization of the coaxial noise diode precipitates one inherently difficult" problem. namely, terminatingv its coaxial cable structure and simultaneously supplying power for the filament, which is associated with the central co'nductor in the coaxial system.

Assume that the device to be tested is attached to the output side of the diode, and. that this device is supposed to be activated by a source (e. g., an antenna) of fifty ohms impedance. The diode and its associated termination must present aton'ce an impedance of fifty ohms between" the inner and outer conductors, and the-diode must also be provided with a lo'w-voltage source of power for the filament, which is'associa'ted with the center conductor of the diode. A tthepre's ent time this difliculty hampers" the use of the otherwise superior operating frequency 'rangeof the coaxial noise diode.

' The apparatus c'urrentlyemployed to' meet the above problem at terminating a coaxiai noise diode and su plying it with properfilament po tential requires bulky and expensive e uipment leaving much to be desired in terms of accurate impedance control. The diode filament 'must be fed through the center-conductor of the coaxial line which forms one of the terminals of the load. one form of present equipment-consists of a.

twisted pair attached to the'diode filament, which pair furnishes the central line oi atype of coaxial cable, measuringa hundred feet or more in length; To the other end of the pair is connected a" source of filament voltage (A. C. or I5)- Betweeh the centralpair in the cable tlieouter tube-of the cable (whichis connected to and forms a continuation ofthe outer tube-of the diode), thereis inserted amaterial having a high coeificient of electrical a-bsorption. The purposeef-this structure is to provide a filainentseurceandat the Same time 'to furnish the requisite high frequency termination for the diode 'e' low frequency terminationis acccin- 'plishedb-"y' placing an ordinary fifty ohm resistancebetween -one side of the inner twisted pair andtheouter'cylinder of the cable.

Not onl'y isthis conventional apparatus cumbersoiiie' in use butit is also subject to variable factors which arise from the use of high and low frequencytermination in conjunctionwith anon:- simple'center conductor; Furthermore, while the above discussion has been directed toward the problem as exemplified "by noise diodes, it will be realized that this problem exists wherever it is desired to introduce' power to the central conductor" of a coaxialsystem without interfering 1 t'he transmission characteristics'of a coaxial line.

Accordinglyit is an object-of the present-invention to make alternating voltage power, for exampleheater'power, available within the confines of the center conductor of a coaxial line in such fashion as'not-to interfere with the original transmission cha'racteristics'as they exist over a prescribed fre uency region.

Another ob'j'ect'of the present invention consists in providing an apparatus for matched termination to be used witha coaxial noise diode such that-alternating"voltage power can be supplied to the diode heater associated with the center" con-'- duct'or of the diode, while preserving its original matching-charact'eristics;

A still further object of this invention consists in an apparatus for coaxial noise source termination possessing a higher degree" of eiii'ciency and-#acouracy th" is possible with current methapparatus:

othef-object of the present invention is the provision of termination apparatus which furnish-es for noise diodes improved matching characteristicsover that" obtained from otherless direct methods in present use.

Yet another'object of the present'invention is to provide a means for terminating sensitivitymeasuring-"noisediodes; eliminating the cumberpanying drawings in which like numerals refer to like parts in the several views, and in which Fig. l is an isometric projection of apparatus according to the invention, with portions broken away and other portions in section more clearly to illustrate the features of. novelty, and Fig. 2 is a section on line 2-2 of Fig. 1.

and not far from the joint 9, and mechanically held by flanges I8, separated and insulated from each other by insulating films I9, thus forming low capacity condensers in the high frequency circuit.

As best seen in Fig. 2, an iron core 28 surrounds the outer toroid 8. The core in turn is encircled by an electrical winding wire 2I connected to a suitable source of low frequency power, such as the usual 60-cycle lighting circuit.

In use termination apparatus is plugged into the noise diode, forming a continuation of the coaxial circuit thereof by the provision of the Referring to the drawings there is disclosed.'

the invention as applied to terminating a coaxial noise diode such as used for generating a signal of known characteristics for testing of very high frequency equipment. Here it is desired to provide a matching termination for the diode which will permit introduction of a filament current for activating the diode without disturbing the electrical symmetry of the circuit.

The diode itself comprises an outer shell 2 forming its plate, an inner coaxial cylinder 4 and a filament 22. For use with the diode, according to the invention, there is provided a termination permitting the induction of a current in the filament circuit without interfering with the symmetry of the high frequency circuit. The novel apparatus comprises a. cylinder I which forms a continuation of the plate 2 of the diode. Within the outer cylinder I there is mounted an inner coaxial cylinder 3, which may be held in its proper position by any suitable dielectric means according to the usual practice. The inner cylinder 3 forms a continuation of the diode. Within the inner cylinder 3 there is mounted an inner coaxial wire 5 which serves as a continuationof the terminal lead 8 of the diode heater 22, which wire 5 being supported by dielectric 1. At its end opposite to the diode connection the cylinder I is attached into a metallic toroid 8 forming a joint 9 therewith, the toroidal wall being cut away along the line of juncture to form a hole. The inner cylinder passes through the joint 9 and bends to right of Fig. 1, to form an inner toroid I8 concentric with the outer shell 8, but broken so as to end just short of rejoining itself at the bend. The inner cylinder is pierced as at II and the axial conductor 5 is led out therethrough, centrally of the inner toroid II) 3 and is soldered at I2 to the inner toroid wall at the termination of the latter. As explained hereinafter, the axial conductor 5 may be attached to the inner toroid III at the termination of the latter without passing centrally of the inner toroid I8. However, in this alternative form results will be somewhat less effective.

Diametrically opposite to the cylinder I, there is attached to the outer toroidal shell 8 a second outer cylinder I3. This second shell, being in line with the first shell will be symmetrical, in an electrical sense, therewith. A second inner cylinder I5 similarly forms a continuation of the similar coaxial elements 3 and I8 and is mounted coaxially with the cylinder I3. At their extremities the inner cylinder I5 and outer cylinder I3 are joined together by a disk resistor I8 and a shield [1, in a manner well known in the art. The outer toroid 8 is broken at equal distances elements I, 3' and 5 which correspond to the similar elements 2, 4 and 8 of the diode. With the flow of an alternating current in the winding 2|, an alternating magnetic flux is generated in the iron core 28 which in turn induces an alternating voltage between the inner wire 5 and the inner cylinder 3, by virtue of the alternating linkage of the flux with the inner toroid II] and the attached inner wire 5. This induced voltage then causes the heater current to flow in the diode heater 22. No current, however, will flow in the outer toroid 8, since the electrical capacity of the flanges I8 is too small at the low frequencies used for the heater circuit.

The concentric cylinders I and 3 therefore form a coaxial line of impedance Z0. The members 8 and I8 form a coaxial line of impedance 2Z0 consisting of two halves in parallel, thus providing a net impedance of Zn which matches the input. Since the coaxial toroid structure of the invention formed by the members 8 and I8, is also connected symmetrically to the concentric cylinders I3 and I5, which in turn are dimensioned to provide an impedance Z0, this line is then terminated by the resistor I8, which has a resistance of Z0. The shield II prevents radiation resistance of free space from varying the effective high frequency resistance of the element I8.

The flanges I8 form condensers of sufiicient capacity at radio frequencies so that the toroid 8 has electrical continuity throughout. The stray capacity between the conductor 5 and the inner toroidal shell I8 makes the shell I0 also appear continuous at radio frequencies, thus furnishing electrical continuity across the mechanical break in the inner toroid I8.

Apparatus, according to the invention, may be employed at various frequencies, provided only that for proper operation the circumference of the inner shell I8 must be less than one wave length. Adjustment of the dimensions for the particular frequencies to be employed is well within the skill of those versed in the art.

While I have disclosed and described a preferred embodiment of apparatus for use in practicing the invention, it will be understood that various changes and modifications may be made therein by those skilled in the art within the spirit and scope of the appended claims.

The United States Government holds a nonexclusive, irrevocable and royalty-free right and license, for all government purposes, to practice and cause to be practiced, and to make, have made, use and sell articles embodying this invention.

I claim:

1. In apparatus for terminating a coaxial line having principal and secondary circuits for different frequencies in which the principal circuit comprises inner and outer concentric cylinders and the secondary circuit comprises said c t i ieaa k posi e hepc nt ff, sio h a hi ar -al o er,

asst-m er Qntiau iae-a ii-ta, nner a d eaten co c ing an impedance twice the value oi tha spending; secondary circuit said; outer toroid-bens diseeniewus wi h. ect o; hare uen y of said, induced current but arranged to; pass;the or at t: ai tnri i a 1 ir ui la sa aiusi n; ccor ance; ith; c a m; 1. in whieha e an or; ndue nar, a ur ent. aid Sec ndar ir t con ist o an? on care ra d es; 1131" o aict oops: n ndu tion cili r; a d-core .v

3; App ra us: er:- erm u ina a.- eaxiai diode; ndiors u n r a ameatcuxz ntr he eto i h ut d sturb n -a he-= 1 trical y met n f ai a iodet ai id edenhavinemi cal andec,- ondarr circuitsforl ifi re uuenc es, inzwhich h rincipal; circuit. comp ises; nner and; u r an t ct yl nde sran s. cn ary reuit om ises ai nnerscr oaxialzccnr lut er: is osedewithinith Sa 7 y filame nne tineqsaidrinne c onduc o whi haapparatus; com es a; accaxia-l t cture: r atchina'impedanceaior attachmen o sai diode; said: structure; in lud n -cont nua:

' aid: cylinders; and; sand; on uctor an t apo ntoir division int ,tivozelectricaled xt nsion; op.- D iUBZi lIfi -D H F; of iv siiolli- QELGYIS. f d IOODS having an impedance twice the value of the impedance of said diode; andis'aidaextension having an impedance matching that of said diode, said inner toroid being cut close to the point of division and said conductor being connected to the end of said inner toroid where the latter is cut, and means associated with one of said loops for inducing a current in said inner conductor for energizing said filament, said outer toroid being discontinuous with respect to the frequency of said induced current but arranged to pass the frequency of said principal circuit.

4. Apparatus in accordance with claim 3 in which the means for inducing a current in said secondary circuit consists of an iron core surrounding one of said loops and an induction coil for said core.

5. In apparatus for terminating-a coaxial line having principal and secondary circuits for different frequencies in which the principal circuit comprises inner and outer concentric cylinders and the secondary circuit comprises said inner cylinder and a coaxial conductor disposed within the same, means for energizing the secondary circuit without disturbing the symmetry of the principal circuit, which comprises: a coaxial e. amacmnaca aam attachm line. sa cl di g: in

I .r i de s andiw 'dI n Qrnd :an i i g ld v sibriih o o e t Iv' b la ced 'reiqin naloonsif mnai a d. Minder on inuation l 1 11 .0 inn r 1111 nc n ric tor as a jt'erminating in a matched; extension Q lvisi mr hi f aid'i p t .i 129 Janice; wi ei e a ue: maimpedance of; sai i I v.. e'.. the: sa d eXteIIS in av n an impedance matching that of said line, inn oroid inacut loserto: the p t. or diev 's n andsai ICQDQ -IQWZTI ingl.0l0I 0t d*1501 er tomidwhe e he. la er. s. ut.

said point' of di iQ he; ea.-

' entsthusformed eing separal' fidi y' di lectr creatihgfla ca c owhrch w'llfllass 'cll ntsiat he, freqi1ncies-.,of. aid; principal circuit cut: in-

canable,ofpass nacur ants;atitheirequen iesof aid" secondary. circuit audimeans associated with ne, of said: loops. for. inducin a urrent. in. said inner conductor, and its corresponding secondary circuit.

6. In apparatusefor, terminating, a coaxiaL line having principal, and; secondary, circuitsior difii erent.- frequencies in, which. the. principal circuit comprises-t inner and; outer concentric, cylinders and the secondary; circuit comprises said; inner cyiinderfand acoaxiaLconduetior, disposedhwithin the same, means for, ener izin the secondary circuitl without. disturbing the?v symmetry: of; the principal circuit whichl means, comprises:. a coaxial 1 structureiof, matching impedanceifor at.- tachment to said liner. ai' rstructure clud n continuations oi said, cylinders, and, said. con.-

cluster" and dividing at av pointiof, division into two electrically balanced rejoining loops form-.- in said, cylinder; continuations? into inner. and outer concentricv toroids terminating in, a matched extension opposite the point of division, each of said. loops having andmpedancei twice the valueuoi the impedanceiof said. line, and said extension having. an; impedance, matching that of said line, said inner, toroid; being cuticlose tov the point oi-v division andsaid conductor 7 being connected to the end oft, said, inner: toroid where the latter iscut, and means associated with one 015-1 aid ,loo sior nducinaarcurrent -sa z ner; conductor, and,;its. corresponding secondary circuih saidouter toroid being discontinuouswith esp ct of; a d nd c d urrentbut arran ed; t pass the current of said principal circuit.

7 In apparatus for terminating a coaxial line having principal and secondary circuits for different frequencies in which the principal circuit comprises inner and outer concentric cylinders and the secondary circuit comprises said inner cylinder and a coaxial conductor disposed within the same, means for energizing the secondary circuit without disturbing the symmetry of the principal circuit, which comprises: a coaxial structure of matching impedance for attachment to said line, said structure including continuations of said cylinders and said conductor and dividing at a point of division into two electrically balanced rejoining loops forming said cylinder continuations into inner and outer concentric toroids surrounding said conductor extension and terminating in a matched extension opposite the point of division, each of said loops having an impedance twice the value of the impedance of said line, and said extension having an impedance matching that of said line, said inner toroid having an opening close to the point dbeing cutat.points respectively ranged to pass the current of said principal circuit. a

8. In a coaxial system having a central conductor and two outer' conductors concentric therewith in which the central conductor and one of the outer conductors comprise a first circuit of one frequency and, the two outer conductors comprise a second circuit of another frequency, means for energizing'said first circuit without disturbing the symmetry of said second'circuit which comprises: a coaxial structure connectable tosaid system, said structure'having'coaxial conducting members corresponding ,to said central and outer conductors to form extensions thereof and of the circuits thereof with matching imprises said inner cylinder and inner conductor axially disposed within said inner cylinder, which pedance, the two outer members thereof dividing into two rejoining arms surrounding the member which constitutes the extension of said central conductor to form a loop, said conducting members being so connected electrically that said first circuit follows a series path around said loop and said second circuit follows a parallel path around said loop, the impedance of said structure matching that of said system, means associated with one of said arms for inducing a current in" said first circuit, means for blocking the, passage of any current in said second circuit at the frequency of said first circuit, and a terminal resistor of the impedance of the system 7 diode, said structure having coaxial members corresponding to said outer and inner shells and said conductor and constituting'extensions thereof, said members dividing into rejoining arms to form a loop and being so connected electrically that the filament circuit follows a series path around said loop and the plate circuit follows a parallel path around said loop, a terminating resistance between the members forming the plate circuit where they rejoin and matching their impedance, and an induction device associated with one of said arms for inducing a current insaid filament circuit.

10. Apparatus in accordance with claim 9 including capacitance means for preventing the passage of current at the frequency of said filament circuit in the members constituting said plate circuit. Y

11. Apparatus for terminating the principal circuit of a coaxial line and for energizing the secondary circuit of said line wherein said principal circuit comprises outer and inner concen tric cylinders and said secondary circuitcom apparatus comprises a matched extension of said principal circuit of said line, said extension dividing at a point of division and the principal circuit thereof diverging in electrically parallel rejoining arms, each arm possessing twice the impedance of said line, a continuation of said principal circuit extending from the point where said arms converge to a termination point, a resistance across said principal circuit atsaid latter point equivalent to the impedance of said line, said inner cylinder being severed in one of said arms at a point adjacent to said point of division and said inner conductor'being connected to the arm end of said inner cylinder where the latter is severed, said outer cylinder in saidarms being severed at points equidistant from said point of division, the respective segments thereof being separated sufificiently to block passage of low frequency alternating current but not to block high frequency alternating current and means for inducing low frequency alternating potential in said inner cylinder in one of said arms.

12. Apparatus in accordance with claim 11 in which the means for inducing an alternating potential in said inner cylinder consists of an iron core surrounding one of said arms and a primary winding upon said core.

MALCOM W. PL STRANDBERG.

No references cited. 

